If `x^2+p x+q=0a n dx^2+q x+p=0,(p!=q)` have a common roots, show that `1+p+q=0` . Also, show that their other roots are the roots of the equation `x^2+x+p q=0.`

If x^2+p x+q=0a n dx^2+q x+p=0,(p!=q) have a common roots, show that p+q=0 . Also, show that their other roots are the roots of the equation x^2+x+p q=0.

If x^(2)+px+q=0andx^(2)+qx+p=0,(p!=q) have a common roots,show that their other 1+p+q=0 .Also,show that their other roots are the roots of the equation x^(2)+x+pq=0.

If p and q are the roots of the equation x^2-p x+q=0 , then

If p and q are the roots of the equation x^(2)+p x+q=0 then

If p and q are the roots of the equation x^2+px+q =0, then

If , p , q are the roots of the equation x^(2)+px+q=0 , then

If p and q are the roots of the equation x^(2)+px+q=0 , then